ASTM E83 REV A Standard Practice for Verification and Classification of Extensometer Systems
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- CENELEC EN 61788-10 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- 29
- CENELEC EN 61788-10 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- 29.050
- CENELEC EN 61788-10 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- CENELEC EN 61788-18 Superconductivity - Part 18: Mechanical properties measurement - Room temperature tensile test of Ag- and/or Ag alloy-sheathed Bi-2223 and Bi-2212 composite superconductors
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- CENELEC EN 61788-10 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method
- CENELEC EN 61788-18 Superconductivity - Part 18: Mechanical properties measurement - Room temperature tensile test of Ag- and/or Ag alloy-sheathed Bi-2223 and Bi-2212 composite superconductors
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- CENELEC EN 61788-10 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method
- CENELEC EN 61788-18 Superconductivity - Part 18: Mechanical properties measurement - Room temperature tensile test of Ag- and/or Ag alloy-sheathed Bi-2223 and Bi-2212 composite superconductors
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- BSI BS EN 61788-21 Superconductivity Part 21: Superconducting wires — Test methods for practical superconducting wires — General characteristics and guidance
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- IEC 61788-12 Superconductivity - Part 12: Matrix to superconductor volume ratio measurement - Copper to noncopper volume ratio of Nb3Sn composite superconducting wires - Edition 2.0
- BSI PD IEC/TR 61788-20 Superconductivity Part 20: Superconducting wires — Categories of practical superconducting wires — General characteristics and guidance
- IEC 61788-18 Superconductivity – Part 18: Mechanical properties measurement – Room temperature tensile test of Ag- and/or Ag alloy-sheathed Bi-2223 and Bi-2212 composite superconductors - Edition 1.0
- CENELEC EN 61788-10 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method
- Картотека зарубежных и международных стандартов
ASTM International
Standard Practice for Verification and Classification of Extensometer Systems
N E83 REV A
Annotation
This practice covers procedures for the verification and classification of extensometer systems, but it is not intended to be a complete purchase specification. The practice is applicable only to instruments that indicate or record values that are proportional to changes in length corresponding to either tensile or compressive strain. Extensometer systems are classified on the basis of the magnitude of their errors.
Because strain is a dimensionless quantity, this document can be used for extensometers based on either SI or US customary units of displacement.
NOTE 1—Bonded resistance strain gauges directly bonded to a specimen cannot be calibrated or verified with the apparatus described in this practice for the verification of extensometers having definite gauge points. (See procedures as described in Test Methods E251.)
This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Автоматический перевод:
Общепринятая практика для проверки и классификации систем тензометра
Эта практика покрывает процедуры для проверки и классификации систем тензометра, но это не предназначается, чтобы быть полной спецификацией закупки. Практика применима только к инструментам, которые указывают или записывают значения, которые пропорциональны изменениям в длине, соответствующей или растяжимой или сжимающей деформации. Системы тензометра классифицируются на основе величины их ошибок.
